Identification of Functional Cellular Markers Related to Human Health, Frailty and Chronological Age

• Published in: Aging cell p. e70153
• Main Authors: Brodeau, Chloé, Joly, Camille, Chekroun, Anaïs, Nakhle, Jean, Blase, Vincent, Espagnolle, Nicolas, Dray, Cédric, Yart, Armelle, Planat, Valérie, Tertrais, Margot, Fassy, Julien, Guyonnet, Sophie, Lu, Wan‐Hsuan, de Souto Barreto, Philipe, Teste, Olivier, Tremblay‐Franco, Marie, Tanner, Kamaryn T., Cohen, Alan A., Carriere, Audrey, Casteilla, Louis, Ader, Isabelle
• Format: Journal Article
• Language: English
• Published: England Wiley Open Access 01.07.2025
• Subjects: Life Sciences; cellular aging; metabolism; healthy aging; intrinsic capacity; dermal fibroblast; extracellular matrix; Intrinsic Capacity
• ISSN: 1474-9718; 1474-9726; 1474-9726; 1474-9728
• DOI: 10.1111/acel.70153

Aging leads to a decline in physiological reserves, an increase in age‐related diseases, reduced functional ability and a shortened healthspan. While molecular markers of chronological aging exist, their link to general health and intrinsic capacity (IC), a composite measure of physical and mental capacities, remains unclear. This study integrates the WHO's Healthy Aging framework with geroscience to explore fibroblasts as indicators of health. We assessed primary skin fibroblasts from 133 individuals aged 20–96, evaluating their ability to maintain tissue structure, modulate immune responses and regulate metabolism (SIM functions). By combining functional and molecular analyses, we investigated the relationship between fibroblast performance, chronological age and IC. Our results demonstrate that fibroblast SIM functions are modified with stressors and age, correlating with IC rather than just chronological age. Notably, fibroblasts from pre‐frail and frail individuals exhibited reduced mitochondrial respiration and lower extracellular periostin levels, with periostin being able to capture IC status, irrespective of age and sex, reflecting a cellular ‘health memory’. The SIM paradigm provides a complementary framework to the established hallmarks of aging, advancing our understanding of how cellular aging impacts functional decline. These findings suggest that fibroblast‐derived markers could serve as indicators of frailty and reduced IC, enabling early detection of individuals at risk for health deterioration and laying the foundation for early identification of functional decline.